Abstract
Background: Combretastatin A-4 (CA-4) and its analogs are potent inhibitors of tubulin polymerization and display strong inhibitory activity on both solid tumor and tumor cell growth. Since natural CA-4 is difficult to synthesize and also isomerizes to an inactive form quite readily, a recently reported new 3,4-diarylfuran-2-one-based series of CA-4 analogs was investigated, in the hope of bypassing some of these difficulties. These analogs appear to offer a valuable tool for CA-4 research because of their extremely facile synthesis from readily available starting materials. Materials and Methods: The CA-4 analogs were evaluated by MTT assay, cell cycle analysis, tubulin polymerization and tumor-inhibiting experiments. Results: Various benzene ring substitutions on the furan-2-one skeleton (analogs to the two aromatic rings on the CA-4 styrene skeleton) quickly demonstrated that the structure-activity relationships are quite similar to previously synthesized CA-4 analogs. The most interesting analog appears to be an anilino compound (NV-5-9) which was also quite soluble. Analog NV-5-9 was remarkably potent in all tested tumor cell lines and could strongly inhibit tubulin polymerization at doses as low as 1 mM. Further experiments with tumor-bearing mice indicated that NV-5-9 and other potent analogs (NV-4-82 and NV-4-86) were effective in treating human prostate PC-3 and SCLC NCI-H69 tumors at well below an oral MTD dose of around 200 mg/kg body weight. This suggests some bioavailability by this route. Conclusion: These data strongly support that NV-5-9 is extremely potent, readily synthesizable and apparently suitable for in vivo studies employing transplanted tumors.
- Received August 7, 2003.
- Accepted December 16, 2003.
- Copyright© 2004 International Institute of Anticancer Research (Dr. John G. Delinassios), All rights reserved